SU832701A1 - Ac-to-dc voltage converter - Google Patents

Description

The invention relates to electrical measuring technology and can be used in digital-and analog voltmeters and automation devices. A known AC / DC converter is used, containing an operational amplifier with an input resistor and two negative feedback circuits, each filled in the form of a diode and a resistor connected in series, and the diodes are connected to the output of the operational amplifier with a separate electrical connector and others The electrodes of the diodes through additional resistors are connected to the common bus 1. However, such a converter is not able to & t receive both the average and the amplitude values of the input signal when s storage accuracy, linearity and stability. . these transformations without significant redistribution of the scheme. The purpose of the invention is to provide the possibility of obtaining both the average and amplitude values of the input signal while maintaining the accuracy, linearity and stability of the conversion. The goal is achieved by the fact that in a converter containing an operational amplifier with a resistor at the input and two negative feedback circuits made each in the form of a series-connected diode and a resistor, the diodes being connected to the output of the operational amplifier with different polarity electrodes through additional resistors are connected to the common input, the first capacitor is connected between the input of the operational amplifier and the resistor in one of the circuits of the feedback circuit, and between The torus and the diode of another value of negative feedback are connected in parallel with the connecting second capacitor and switch. The drawing shows an electrical schematic diagram of the proposed converter. The converter contains a resistor 1, an operational amplifier 2, feedback circuits 3 and 4, consisting of diodes 5 and 6, resistors

7 and 8, the first 9 and second 10 capacitors and the key 11, as well as additional resistors 12 and 13, output 14.

The Converter operates as follows.

The transformable alternating voltage through the resistor 1 is fed to the input of the operational amplifier 2, at the output of which this voltage is separated in the opposite polarity and distributed through diodes 5 and 6 in accordance with their polarity. The feedback for the positive half-waves of the output voltage of the op-amp 2 is closed through resistor 7 and capacitor 9, for negative through a resistor 8 and capacitor 10. When the switch 11 is open, the feedback for both half-waves is symmetrical. On each of the capacitors 9 and 10, a constant voltage equal to the average value of the sequences of positive or negative half waves is generated. Since the constant component through the circuits 3 and 4 feedback does not pass, the operational amplifier 2 operates as an AC voltage amplifier.

The voltage of the capacitor 9 is superimposed on a small input voltage of the operational amplifier 2, which is less than the output voltage approximately K times, where K is the gain of the operational amplifier 2. Therefore, the voltage of the capacitor 9 contains almost no ripples, relative to the total thickness (input amplifier 2 is a potentially grounded point, i.e. its potential is very close to the potential of the common ground) and goes to output 14. If key 11 is closed, first the sequence of negative half waves goes to the input of the Discount amplifier 2 with its permanently component equal to the average value of the sequence. Under the action of feedback, the constant level of the output voltage of the operational amplifier 2 is shifted until the currents at the input of the operational amplifier 2 are completely sewn.

The output voltage level of the operational amplifier 2 is shifted in the positive direction by the magnitude of the amplitude value of the negative half-waves of the output voltage of the operational amplifier 2, measured relative to the average level, since only in this case the direct current does not flow through the reverse link. The output voltage of the spinning amplifier 2 is related to its minima of the potential level of the housing, and almost all the time the feedback is carried out through the circuit 3. Through the resistor 8 the feedback is carried out mostly only with a sharp increase in the amplitude of the input signal in the transient process. The capacitor 9 charges to the average value of the signal fed to the feedback circuit 3, which in this case is equal to the amplitude value of the negative; 1n (at the output of the operational amplifier 2) half-wave of alternating voltage.

Thus, when the key is open, the voltage taken from output 14 is proportional to the mean value of the transformed surge voltage, and when the key is closed, 11 is the amplitude of its positive half-wave.

The invention provides both a moderately produced and an amplitude transform, the transition from one mode to another is accomplished by simply closing one of the condi-

In this case, the output voltage is removed in both cases from the same output, while using the feedback for both types of conversion, the accuracy, linearity and stability of the conversion are preserved.

Claims (1)

Invention Formula AC to DC converter containing an operational amplifier with an input resistor and two negative-feedback circuits each made in series the diode and the resistor, and the diodes are connected to the output of the operational amplifier with different polarity electrodes, and the other electrodes of the diodes through additional resistors are connected to a common bus that distinguishes so that, in order to provide the possibility of creeping both mean free and amplitude values of the input signal while maintaining the accuracy, linearity and stability of the converter, between the input of the operational amplifier and the resistor in one negative feedback circuits included the first capacitor, and between the resistor and diode of the other circuit of the negative reverse The connections are connected in parallel to the second capacitor and switch. The sources of information taken into account during the examination I. L. Volgin. Measuring converters of alternating voltage to constant. M., Soviet Radio, 1977, p. 192, fig. 4.23 (prototype).